Learning focus

Develop precise chemical language, connect particle and bonding models to observations, interpret diagrams and data, and apply ideas to unfamiliar examples.

Network

Silicon(IV) oxide, SiO2, has a giant covalent network. Each silicon bonds to oxygen atoms and each oxygen bridges silicon atoms. The formula shows a 1:2 ratio, not a small molecule.

Silicon and oxygen form a continuous covalent network.
Silicon and oxygen form a continuous covalent network.
High melting point

Many strong Si-O bonds extend throughout the structure. Considerable energy is required to break enough bonds for melting.

Diamond and silicon dioxide share giant covalent features.
Diamond and silicon dioxide share giant covalent features.
Hardness

The rigid network prevents easy movement of atoms and gives hard materials such as quartz.

Conductivity

There are no mobile ions or delocalised electrons under ordinary conditions, so silicon(IV) oxide does not conduct electricity.

Comparison with diamond

Both are hard, high-melting, giant covalent solids and poor conductors. Their atom types and detailed networks differ.

Practical or data skill

Compare data for diamond and silicon dioxide and identify the shared structure-property explanation.

Examination tip

Do not draw SiO2 as separate O=Si=O molecules.

Review questions and suggested answers
Question 1

Why high melting point?

Suggested answer

Many strong covalent bonds must be broken.

Question 2

Does SiO2 conduct?

Suggested answer

No.

Question 3

One similarity with diamond?

Suggested answer

Both are hard giant covalent solids with high melting points.